CN218840679U - Carrier frock hold-in range conveyer - Google Patents

Abstract

The utility model discloses a carrier tool synchronous belt conveyor, which relates to the technical field of conveyors and comprises a frame, a conveying belt and a carrier cup, wherein a motor is arranged at one side of the frame, four groups of the output end of the motor, which are close to the middle part of the frame, are provided with driving rollers, a driven roller is arranged at the middle part of the frame, which is close to the inner side of the conveying belt, and a dismounting structure and a limiting component are arranged at the joint of the conveying belt and the carrier cup; the utility model provides a carrier frock hold-in range conveyer, through the setting of dismantling the structure, installs and dismantles the in-process at the carrier cup, the simple operation, labour saving and time saving is convenient for change not unidimensional carrier cup, improves the conveying efficiency of conveyer, through the setting of spacing subassembly, carries out the installation in-process at carrier cup and conveyer belt through dismantling the structure, restricts the stopper, avoids the carrier cup to take place to rock, further improves the installation effectiveness of carrier cup.

Description

Carrier frock hold-in range conveyer

Technical Field

The utility model relates to a conveyer technical field specifically is a carrier frock hold-in range conveyer.

Background

The belt conveyor is one of the most important bulk material transport machines in the world nowadays, and is widely applied to various industries of national economy such as mines, metallurgy, electric power, chemical engineering, ports, building materials, storage and the like, and the synchronous belt conveyor is mainly used for positioning or distance conveying and transmission and is widely applied to industries such as medicine, paper making, tobacco, automatic doors and the like.

The existing conveyor needs to clamp and convey the carrier devices at robots at two ends in a matched mode in the process of conveying specific materials, the carrier devices are usually fixed through bolts in the installation and disassembly processes, the carrier devices cannot be disassembled and replaced freely in daily life, time and labor are wasted in the replacement process, the existing conveyor is not suitable for conveying materials of different sizes, and the conveying efficiency of the conveyor is further reduced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides a carrier frock hold-in range conveyer has solved and has installed and dismantle the in-process at the carrier device and fix for the bolt usually, and daily can not freely dismantle the change, and it is difficult for wasting time in the change process, is not suitable for not unidimensional material to carry, and then reduces the problem of the conveying efficiency of conveyer.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a carrier tool synchronous belt conveyor comprises a rack, a conveying belt and a carrier cup;

a motor is installed on one side of the rack, four groups of driving rollers are arranged at the output end of the motor, close to the middle part of the rack, and a driven roller is arranged at the middle part of the rack, close to the inner side of the conveying belt;

the connecting part of the conveying belt and the carrier cups is provided with a dismounting structure and a limiting assembly, and the number of the carrier cups is a plurality of groups and is distributed on the outer surface of the conveying belt at equal intervals;

the disassembly structure comprises a support plate fixed to the bottom of the carrier cup, a slot formed in the bottom of the support plate, a limiting groove formed in the bottom of the support plate and close to the outer side of the slot, a rotary groove formed in the slot, an insertion column fixed to the outer surface of the upper end of the carrier cup and a limiting block fixed to the outer side of the insertion column.

As a further technical scheme of the utility model, the bottom fixedly connected with supporting legs of frame, and the quantity of supporting legs is four groups and is the array distribution, initiative cylinder and driven cylinder all with the frame between be connected for rotating.

As the utility model discloses further technical scheme, be linked together between slot and the spacing groove, insert looks adaptation between post and the slot, looks adaptation between stopper and the spacing groove, and the stopper is rotatory about going on along the inboard of swivelling chute.

As a further technical scheme of the utility model, the quantity of swivelling chute equals with the quantity of stopper, stopper and insert structure as an organic whole between the post.

As the utility model discloses further technical scheme still includes the spacing subassembly of setting in the inside of swivelling chute, spacing subassembly is provided with at the reference column of swivelling chute inboard, fix at the supplementary piece at reference column top and fix the spacing spring at supplementary piece top including seting up at the inboard shifting chute of swivelling chute, seting up at the inside compression groove of shifting chute.

As a further technical scheme of the utility model, the quantity of shifting chute equals with the quantity of swivelling chute, and is linked together between shifting chute and the compression tank, the bottom edge of reference column is the arc structure, structure as an organic whole between reference column and the supplementary piece, spacing spring's both ends respectively with supplementary piece and compression tank between form fixed connection.

The utility model provides a carrier frock hold-in range conveyer. Compared with the prior art, the method has the following beneficial effects: through the arrangement of the dismounting structure, the operation is convenient and fast, the time and the labor are saved, the carrier cups with different sizes can be conveniently replaced in the process of mounting and dismounting the carrier cups, and the conveying efficiency of the conveyor is improved;

through the setting of spacing subassembly, carry out the installation in-process at carrier cup and conveyer belt through dismantling the structure, restrict the stopper, avoid the carrier cup to take place to rock, further improve the installation effectiveness of carrier cup.

Drawings

FIG. 1 is a schematic structural view of a carrier tool synchronous belt conveyor;

FIG. 2 is a partially exploded view of a carrier cup in a carrier tooling synchronous belt conveyor;

FIG. 3 is a schematic view of a partial structure of a carrier tool synchronous belt conveyor;

FIG. 4 is an enlarged view of A of FIG. 3 of a carrier tooling synchronous belt conveyor;

fig. 5 is an enlarged view of B in fig. 3 of a carrier tool synchronous belt conveyor.

In the figure: 1. a frame; 2. a conveyor belt; 3. a carrier cup; 4. a motor; 5. a driving roller; 6. a driven drum; 7. disassembling the structure; 71. a support plate; 72. inserting slots; 73. a limiting groove; 74. a rotating tank; 75. inserting a column; 76. a limiting block; 8. a limiting component; 81. a moving groove; 82. a compression groove; 83. a positioning column; 84. an auxiliary block; 85. a limiting spring; 9. support the feet.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the utility model provides a technical solution of carrier tool synchronous belt conveyor: a carrier tool synchronous belt conveyor comprises a frame 1, a conveying belt 2 and a carrier cup 3;

wherein, motor 4 is installed to one side of frame 1, and the output of motor 4 is close to the middle part four groups of frame 1 and has initiative cylinder 5, and the middle part of frame 1 is close to the inboard of conveyer belt 2 and is provided with driven cylinder 6, and the junction of conveyer belt 2 and carrier cup 3 is provided with dismantlement structure 7 and spacing subassembly 8, and the quantity of carrier cup 3 is a plurality of groups and equidistance distribution at the surface of conveyer belt 2.

Referring to fig. 1-4, the detaching structure 7 includes a supporting plate 71 fixed at the bottom of the carrier cup 3, a slot 72 formed at the bottom of the supporting plate 71, a limiting groove 73 formed at the bottom of the supporting plate 71 near the outer side of the slot 72, a rotating groove 74 formed in the slot 72, a post 75 fixed at the outer surface of the upper end of the carrier cup 3, and a limiting block 76 fixed at the outer side of the post 75.

The bottom fixedly connected with supporting legs 9 of frame 1, and the quantity of supporting legs 9 is four groups and be the array distribution, driving roller 5 and driven drum 6 all with frame 1 between be connected for rotating, be linked together between slot 72 and the spacing groove 73, it adapts between post 75 and the slot 72 to insert, adapt between stopper 76 and the spacing groove 73, and stopper 76 carries out the rotation about along the inboard of swivelling chute 74, the quantity of swivelling chute 74 equals with the quantity of stopper 76, stopper 76 with insert as an organic whole structure between the post 75, thereby be convenient for the installation and the dismantlement of carrier cup 3.

Referring to fig. 5, the carrier tool synchronous belt conveyor further includes a limiting assembly 8 disposed inside the rotating groove 74, the limiting assembly 8 includes a moving groove 81 disposed inside the rotating groove 74, a compression groove 82 disposed inside the moving groove 81, a positioning column 83 disposed inside the moving groove 81, an auxiliary block 84 fixed on the top of the positioning column 83, and a limiting spring 85 fixed on the top of the auxiliary block 84.

The number of the moving grooves 81 is equal to that of the rotating grooves 74, the moving grooves 81 are communicated with the compression grooves 82, the bottom edge of the positioning column 83 is of an arc-shaped structure, the positioning column 83 and the auxiliary block 84 are of an integrated structure, two ends of the limiting spring 85 are fixedly connected with the auxiliary block 84 and the compression grooves 82 respectively, and the limiting block 76 is further limited.

The utility model discloses a theory of operation: in the conveyer use, at first fix the upper end at conveyer belt 2 with multiunit carrier cup 3 through the cooperation of dismantling structure 7 and spacing subassembly 8, starter motor 4, output through motor 4 drives initiative cylinder 5 and rotates along the inboard of frame 1, drive conveyer belt 2 and carrier cup 3 simultaneously and rotate, driven cylinder 6 rotates under the removal effect of conveyer belt 2 simultaneously, further drive carrier cup 3 and remove, carry the utensil centre gripping in the inside of carrier cup 3 at the outside robot of cooperation, thereby carry out the last unloading of utensil.

Secondly, through the arrangement of the dismounting structure 7, in the dismounting process of the carrier cup 3, a user rotates the carrier cup 3 anticlockwise to enable the carrier cup 3 to drive the support plate 71 to rotate, meanwhile, the limit block 76 rotates along the inner side of the rotating groove 74, the inserting column 75 rotates along the inner side of the inserting groove 72, the limit block 8 is pressed against and compressed in the rotating process of the limit block 76 until the limit block 8 rotates to the bottom of the limit groove 73, the carrier cup 3 is pulled upwards to enable the limit groove 73 to move along the outer side of the limit block 76, meanwhile, the limit groove 73 moves along the outer side of the inserting column 75 until the carrier cup 3 is dismounted, and the steps are operated reversely during mounting, so that the carrier cup 3 is mounted, the operation is convenient, the time and the labor are saved, the carrier cups 3 with different sizes can be conveniently replaced, and the conveying efficiency of the conveyor is improved;

then, through the setting of spacing subassembly 8, when spacing block 76 contradicts along spacing subassembly 8, at first reference column 83 atress along the inboard rebound of shifting chute 81, drive supplementary piece 84 simultaneously and remove along the inboard of compression groove 82, remove the in-process at supplementary piece 84 and drive spacing spring 85 and compress, parallel with the bottom surface of shifting chute 81 until the bottom of reference column 83, thereby make spacing block 76 pass through the restriction of reference column 83, install and dismantle the in-process at carrier cup 3, play the effect of restriction spacing block 76, avoid carrier cup 3 to take place to rock, further improve the installation effectiveness of carrier cup 3.

Claims (6)

1. A carrier tool synchronous belt conveyor is characterized by comprising a rack (1), a conveying belt (2) and a carrier cup (3);

a motor (4) is installed on one side of the rack (1), four groups of driving rollers (5) are arranged at the output ends of the motors (4) close to the middle part of the rack (1), and driven rollers (6) are arranged at the middle part of the rack (1) close to the inner side of the conveying belt (2);

a disassembly structure (7) and a limiting assembly (8) are arranged at the joint of the conveying belt (2) and the carrier cups (3), and the carrier cups (3) are distributed on the outer surface of the conveying belt (2) in a plurality of groups at equal intervals;

the dismounting structure (7) comprises a supporting plate (71) fixed at the bottom of the carrier cup (3), a slot (72) formed in the bottom of the supporting plate (71), a limiting groove (73) formed in the bottom of the supporting plate (71) and close to the outer side of the slot (72), a rotating groove (74) formed in the slot (72), an inserting column (75) fixed on the outer surface of the upper end of the carrier cup (3) and a limiting block (76) fixed on the outer side of the inserting column (75).

2. The carrier tool synchronous belt conveyor according to claim 1, wherein the bottom of the frame (1) is fixedly connected with supporting legs (9), the supporting legs (9) are four groups and distributed in an array, and the driving roller (5) and the driven roller (6) are rotatably connected with the frame (1).

3. The carrier tool synchronous belt conveyor according to claim 1, wherein the slot (72) is communicated with the limit groove (73), the insert column (75) is matched with the slot (72), the limit block (76) is matched with the limit groove (73), and the limit block (76) rotates left and right along the inner side of the rotating groove (74).

4. The carrier tool synchronous belt conveyor as claimed in claim 1, wherein the number of the rotation grooves (74) is equal to the number of the limiting blocks (76), and the limiting blocks (76) and the insertion columns (75) are integrated.

5. The carrier tool synchronous belt conveyor according to claim 1, further comprising a limiting assembly (8) arranged inside the rotating groove (74), wherein the limiting assembly (8) comprises a moving groove (81) formed inside the rotating groove (74), a compression groove (82) formed inside the moving groove (81), a positioning column (83) arranged inside the moving groove (81), an auxiliary block (84) fixed at the top of the positioning column (83), and a limiting spring (85) fixed at the top of the auxiliary block (84).

6. The carrier tool synchronous belt conveyor as claimed in claim 5, wherein the number of the moving grooves (81) is equal to the number of the rotating grooves (74), the moving grooves (81) are communicated with the compressing grooves (82), the bottom edge of the positioning column (83) is of an arc structure, the positioning column (83) and the auxiliary block (84) are of an integral structure, and two ends of the limiting spring (85) are respectively fixedly connected with the auxiliary block (84) and the compressing grooves (82).

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